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Nuclear Reactors

Nuclear Reactors Question: A nuclear reactor is powered by nuclear fuel rods. After being used for a while, those nuclear fuel rods are Heavier than when they were new Lighter than when they were new The same weight as when they were new Uranium-235 Radioactive – fissions and emits neutrons

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Nuclear Reactors

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  1. Nuclear Reactors

  2. Question: A nuclear reactor is powered by nuclear fuel rods. After being used for a while, those nuclear fuel rods are • Heavier than when they were new • Lighter than when they were new • The same weight as when they were new

  3. Uranium-235 • Radioactive – fissions and emits neutrons • Fissionable – breaks when hit by neutrons • Rare fraction of natural uranium (0.72%)

  4. Uranium-238 • Radioactive – emits helium nuclei, some fissions • Nonfissionable – absorbs fast neutrons without fission • Common fraction of natural uranium (99.27%)

  5. Natural Uranium • Contains mostly 238U, with some 235U • Fissioning uranium nuclei emit fast neutrons • 238U absorbs fast neutrons • Most fission neutrons are absorbed by 238U • Chain reactions won’t work in natural uranium

  6. Thermal Neutrons • 238U doesn’t absorb slow (thermal) neutrons! • Slowed neutrons bypass 238U • A 235U chain reaction can occur in natural uranium if the neutrons are slowed by a moderator • Moderator nuclei • Small nuclei that don’t absorb neutrons • Extract energy and momentum when struck by neutrons • Slow neutrons down

  7. Moderators 1 • Hydrogen nuclei (protons) • Good mass match with neutron • Excellent energy and momentum transfer • Slight possibility of absorbing neutron • Deuterium nuclei (heavy hydrogen isotope) • Decent mass match with neutron • Good energy and momentum transfer • No absorption of neutrons

  8. Moderators 2 • Carbon • Adequate mass match with neutron • Adequate energy and momentum transfer • Little absorption of neutrons • Choosing a moderator • Deuterium is best, but it’s rare and reactive (hydrogen) • Hydrogen is next best, but its reactive • Carbon is acceptable and a convenient solid

  9. Thermal Fission Reactors • Reactor core contains huge amount of uranium • Uranium is natural or slightly enriched • Moderator is interspersed throughout core • Moderator quickly slows neutrons down • Nuclear chain reactions occur only among 235U • Critical mass is controlled by size & shape of core, type of fuel, location and quality of moderator, and positions of neutron-absorbing control rods

  10. Controlling Reactors 1 • Critical mass • Below it, fission rate diminish with each generation • Above it, fission rate increases with each generation • Generation rate of prompt neutrons is very short • Controlling prompt-neutron fission is difficult! • Delayed fission • Some fissions produce short-lived radioactive nuclei • These radioactive nuclei emit neutrons after a while • Delayed neutrons contribute to the chain reactions

  11. Controlling Reactors 2 • There are two different critical masses • Prompt critical: prompt neutrons sustain chain reaction • Delayed critical: prompt and delayed neutrons required • Reactors operate • Below prompt critical mass • Above delayed critical mass • Control rods govern the fission rate

  12. Using Nuclear Reactors • Fissions release thermal energy • Thermal energy is extracted by a coolant • Coolant is used to power a heat engine • Heat engine produces power

  13. Nuclear Accidents • Windscale Pile 1 (Britain) • Carbon moderator burned during annealing • Three Mile Island (US) • Cooling pump failed and core overheated (while off) • Chernobyl Reactor 4 (USSR) • Coolant boiled in overmoderated graphite reactor • Exceeded prompt critical

  14. Question: A nuclear reactor is powered by nuclear fuel rods. After being used for a while, those nuclear fuel rods are • Heavier than when they were new • Lighter than when they were new • The same weight as when they were new

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